国际学生入学条件
All official Transcripts. A bachelor's degree or its foreign equivalent from an accredited college or university. The Master of Arts (M.A.) degree is normally an incidental degree on the way to full Ph.D. candidacy and is earned after a student successfully: (a) passed the first proposition and successfully defended it orally before a committee of faculty members.. It may also be awarded to students who, for various reasons, leave the Ph.D. program, provided that these requirements have been met.
Applicants are required to upload a transcript (may be unofficial at this time) including the key from all attended colleges or universities.The transcript must show the name of the student, name of the issuing institution, name of courses taken, and the grades received in those courses.
The Graduate School does not have a minimum TOEFL or IELTS score requirement. If you are offered admission and accept our offer and have scored below a 27 on the Speaking sub-section of the TOEFL iBT or below an 8.0 on the Speaking sub-section of the IELTS you will be required to take an English placement test at the start of the fall term. Students who do not pass the test will be required to enroll in English Language Program classes.
General Test required
ADDITIONAL DEPARTMENTAL REQUIREMENTS:
Please briefly describe how your academic interests, background, or life experiences would promote Princeton's commitment to diversity and inclusion within the Graduate School and to training individuals in an increasingly diverse society. Please submit a succinct statement of no more than 250 words.
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雅思考试指南
- 雅思总分:6
- 托福网考总分:60
- 托福笔试总分:160
- 其他语言考试:NA
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申请截止日期: 请与IDP顾问联系以获取详细信息。
课程简介
Novel chemical and physical phenomena emerge at surfaces - the seats of communication between phases - and these properties are important to a vast range of applications, including catalysis, environmental remediation, deposition and etching for microelectronics fabrication, plasma-processing of materials, battery electrodes, 2D materials and topological insulators and first-wall shielding in fusion devices. New and revolutionary imaging and spectroscopy tools help characterize and investigate surface chemistry and physics at the atomic scale. Catalysts are used to produce over 80% of all chemical products and fuels, with a total value in the U.S. of over 900 billion per year. Research and development has the promise of transforming the design, sustainability and use of energy in catalytic synthesis and storage. Advances in synthesis and nanotechnology enable unprecedented design and control of materials at the atomic and molecular scale. Catalysis research includes fundamentals and applications in heterogeneous catalysis for hydrocarbon conversion, electrocatalysis for electrolyzers and fuel cell electrodes, photocatalysis for water splitting and CO2 reduction for producing solar fuels, and plasma catalysis for activating unreactive molecules such as methane and carbon dioxide. The Ph.D. program aims to prepare students for positions as independent researchers, whether in industry or in academia. We believe that the close mentorship characterized by our program and our strong emphasis on written and oral communication benefit students who follow such career paths. The central feature of the program is original research leading to the student's Ph.D. dissertation. In addition, students must exhibit a firm and broad grasp of modern chemical engineering and allied fields through coursework, and demonstrate the ability to conceive and plan original research.
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